DE422280C - Suspension or tension insulator - Google Patents

Description

The invention relates to a suspension or tension insulator, which is therefore subject to tension and is often rod-shaped or shaped like a stick. The rod or stick can be smooth or have beads, rings or grooves or protective roofs, etc.

If such an insulator breaks for any reason, it will fall Line down. Usually they are

ίο isolators already designed so that the Cross-sections of the insulator body are chosen so that they are a multiple of the could eventually carry the attached load. The insulating material is usually porcelain, Glass or another brittle body that is exposed to intermittent loads, especially when Swinging of the line in the wind, cracks and cracks can get, which also often through external violence, such as stone throwing, is injured and can break as a result.

The invention now provides a new means of even breaking the brittle insulating material to prevent the line from falling and consists in the fact that inside the insulator body subjected to tensile stress, j namely in a cavity or bore of the same, a connecting means larger Tensile strength is also attached from insulating material. In particular, in a A stick made of soaked wood or paper is attached to the hole in the insulator body. So if the porcelain or glass body becomes brittle, the line is still hanging on the lanyard of greater tensile strength. You might think that the whole In such a case, the insulator body can only be formed by the latter connecting means could. Then this would have to have a considerably larger cross-section because it is permanent should bear the attached load and not just the short time it takes to find it of the damaged isolator is required. In addition, however, there are those soaked Wooden or paper sticks in and of themselves not resistant enough to the influence the weather and have the particular disadvantage that they are in a rollover of the -Isolators are attacked by the flashover sparks, i.e. on the outer surface carbonize and thereby result in a permanently conductive path for the electric current. The insulator according to the invention is completely different from the so-called composite insulators, in which hard paper and a porcelain cladding are also used. With these so-called In contrast to the invention, composite insulators have the actual permanent insulating and supporting function of hard paper assigned, and the porcelain cladding only serves as a protective coat against the effects of the weather and attacks by the hard paper through the rollover spark. So you can have two isolators, one of which according to the invention and one is designed as a composite insulator, easily thereby differ from each other that in the first case the hard paper insert compared to the Insulator body has a relatively small cross-section and the latter in undamaged Condition in and of itself is suitable for the entire attached load with the appropriate Safety degree to wear, while the core part of the composite insulator is dimensioned so that it is already on its own is constantly able to bear the load and the porcelain portion alone is not able to do this were. The two insulators also differ in the way the Porcelain and hard paper part in the fittings. In the case of the composite insulator, the percentage of cells is not so connected to the fittings

the fact that he could transmit considerable tensile forces, while the hard paper part so with the Fogging is connected with the fact that he alone bears the burden for himself. Also are the composite insulators are usually provided with a multi-part porcelain jacket and the individual parts of the latter are not at all so connected that any Tensile forces are transferred from one to the other porcelain part could.

The invention will be explained in more detail with reference to the exemplary embodiment of the drawing, which indicates the simplest embodiment, ie shows a billet insulator without protective roofs etc. in Fig. 1 in vertical section and in Fig. 2 in plan view with the cap removed. i is the insulator body, for example made of porcelain, with thickened upper and lower ends, on which caps k of any embodiment are attached. Into a bore b of the insulator body is now a for example rectangular rod s of impregnated wood, hard paper or. The like. Used which is spread apart at both ends by driving a wedge I and thereby f in a cone-shaped extension of the insulator bore is pressed b. Such an insulator usually only breaks in the free path between the caps; the wooden or paper stick will then take over the load and transfer it to the cap through the intact parts of the thickened ends of the insulator body i. In the rare event that even a thickened end should jump, the connection between the rod and the cap will still be maintained, since the thickened parts are still held together by the caps and cannot slip out of them.

An insulator is obtained in this way, which consists mainly of porcelain and In the undamaged condition, the load is borne exclusively by this porcelain body, while only in the event of the breakage of the the latter the deposit comes into effect as a security.

The invention is also particularly effective when, as is common today, two such insulators or chains are arranged parallel to one another and bear the load. If an insulator in a chain breaks, the will not suddenly and intermittently be the whole load transferred to the undamaged second chain, but gradually, by the previously only slightly strained rod after breaking the associated Insulator body takes over the load. Should he now have to carry this long time and are stretched as a result, maybe even eventually tear, at least that is the opinion of the Load transfer to the chain arranged in parallel takes place so gradually that one jerky Transmission is ruled out and the second chain is not due to a sudden increase the load is also torn apart.

Such embodiments of insulators are particularly suitable for railway operations.

Claims (4)

Patent Claims: i. Suspension or tension insulator, in which an insulating body made of porcelain or other brittle insulating material contains a special pulling element in a bore, characterized in that the insulating body, dimensioned according to the tensile load to be absorbed, is connected to the fittings in such a way that the tensile load is transferred to it and that Tension member (s) made of insulating material of higher tensile strength and less brittle than the insulating body is inserted in such a way that it can only take over the tensile load when the insulating body breaks. 2. hanging or strain insulator according to claim 1, characterized in that the ends of the tension member used in the insulator body (i) in the ends of the insulator body (i) are anchored, and are connected by the latter with the fogging (k). 3. Suspension or tensioning insulator according to claim 1 and 2, characterized in that a rod made of impregnated wood or paper, in particular hard paper, is used as the pulling element (s) , the ends of which are spread apart by a wedge (I) and are conical Extensions (f) the cavity or bore (b) of the insulator body (t) are taken. 4. suspension or tension insulator according to claim 1 or following, characterized in that the insulator body (i) is provided in a manner known per se with thickened ends which have a cone-shaped enlarged bore or cavity (f) for holding the inserted additional pulling element and whose outer, likewise conical surface-shaped boundary surfaces are directly or indirectly covered by the fittings (k). 1 sheet of drawings.